Monocytes/macrophages respond to peroxynitrite with the triggering of events leading to prevention of an otherwise prompt lethal response. This survival signaling regulated by molecules of the arachidonate cascade however presents a hypothetical critical limitation. In human promonocytic cell lines, peroxynitrite indeed promotes ryanodine receptor-derived Ca2+- dependent mitochondrial formation of H2O2, entirely responsible for the ensuing DNA strand scission. The occurrence of the same events in monocytes/macrophages at the inflammatory sites would therefore enhance the extent of DNA strand scission in viable cells, thereby increasing the rate of mutation and neoplastic transformation. The present study illustrates the details of a novel strategy based on a differentiation- associated loss of expression of ryanodine receptors. These cells simply do not accumulate mitochondrial Ca2+ in response to peroxynitrite and therefore fail to generate superoxide/H2O2, thereby preserving the integrity of their DNA. We propose that an important component of the overall strategy adopted by monocytes/macrophages to survive to peroxynitrite, with no increased risk of neoplastic transformation, involves down-regulation of ryanodine receptor expression.

Differentiation-associated loss of ryanodine receptors: a strategy adopted by monocytes/macrophages to prevent the DNA single-strand breakage induced by peroxynitrite.

GUIDARELLI, ANDREA;CERIONI, LIANA;FIORANI, MARA;CANTONI, ORAZIO
2009

Abstract

Monocytes/macrophages respond to peroxynitrite with the triggering of events leading to prevention of an otherwise prompt lethal response. This survival signaling regulated by molecules of the arachidonate cascade however presents a hypothetical critical limitation. In human promonocytic cell lines, peroxynitrite indeed promotes ryanodine receptor-derived Ca2+- dependent mitochondrial formation of H2O2, entirely responsible for the ensuing DNA strand scission. The occurrence of the same events in monocytes/macrophages at the inflammatory sites would therefore enhance the extent of DNA strand scission in viable cells, thereby increasing the rate of mutation and neoplastic transformation. The present study illustrates the details of a novel strategy based on a differentiation- associated loss of expression of ryanodine receptors. These cells simply do not accumulate mitochondrial Ca2+ in response to peroxynitrite and therefore fail to generate superoxide/H2O2, thereby preserving the integrity of their DNA. We propose that an important component of the overall strategy adopted by monocytes/macrophages to survive to peroxynitrite, with no increased risk of neoplastic transformation, involves down-regulation of ryanodine receptor expression.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11576/2301714
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